Documentation ¶
Overview ¶
Package embed provides bindings for embedding an etcd server in a program.
Launch an embedded etcd server using the configuration defaults:
import ( "log" "time" "github.com/coreos/etcd/embed" ) func main() { cfg := embed.NewConfig() cfg.Dir = "default.etcd" e, err := embed.StartEtcd(cfg) if err != nil { log.Fatal(err) } defer e.Close() select { case <-e.Server.ReadyNotify(): log.Printf("Server is ready!") case <-time.After(60 * time.Second): e.Server.Stop() // trigger a shutdown log.Printf("Server took too long to start!") } log.Fatal(<-e.Err()) }
Index ¶
- Constants
- Variables
- type Config
- func (cfg *Config) ClientSelfCert() (err error)
- func (cfg Config) ElectionTicks() int
- func (cfg Config) InitialClusterFromName(name string) (ret string)
- func (cfg Config) IsNewCluster() bool
- func (cfg *Config) PeerSelfCert() (err error)
- func (cfg *Config) PeerURLsMapAndToken(which string) (urlsmap types.URLsMap, token string, err error)
- func (cfg *Config) UpdateDefaultClusterFromName(defaultInitialCluster string) (string, error)
- func (cfg *Config) Validate() error
- type Etcd
Constants ¶
const ( ClusterStateFlagNew = "new" ClusterStateFlagExisting = "existing" DefaultName = "default" DefaultMaxSnapshots = 5 DefaultMaxWALs = 5 DefaultMaxRequestBytes = 1.5 * 1024 * 1024 DefaultGRPCKeepAliveMinTime = 5 * time.Second DefaultGRPCKeepAliveInterval = 2 * time.Hour DefaultGRPCKeepAliveTimeout = 20 * time.Second DefaultListenPeerURLs = "http://localhost:2380" DefaultListenClientURLs = "http://localhost:2379" )
Variables ¶
var ( ErrConflictBootstrapFlags = fmt.Errorf("multiple discovery or bootstrap flags are set. " + "Choose one of \"initial-cluster\", \"discovery\" or \"discovery-srv\"") ErrUnsetAdvertiseClientURLsFlag = fmt.Errorf("--advertise-client-urls is required when --listen-client-urls is set explicitly") DefaultInitialAdvertisePeerURLs = "http://localhost:2380" DefaultAdvertiseClientURLs = "http://localhost:2379" )
Functions ¶
This section is empty.
Types ¶
type Config ¶
type Config struct { CorsInfo *cors.CORSInfo LPUrls, LCUrls []url.URL Dir string `json:"data-dir"` WalDir string `json:"wal-dir"` MaxSnapFiles uint `json:"max-snapshots"` MaxWalFiles uint `json:"max-wals"` Name string `json:"name"` SnapCount uint64 `json:"snapshot-count"` AutoCompactionRetention int `json:"auto-compaction-retention"` // TickMs is the number of milliseconds between heartbeat ticks. // TODO: decouple tickMs and heartbeat tick (current heartbeat tick = 1). // make ticks a cluster wide configuration. TickMs uint `json:"heartbeat-interval"` ElectionMs uint `json:"election-timeout"` // InitialElectionTickAdvance is true, then local member fast-forwards // election ticks to speed up "initial" leader election trigger. This // benefits the case of larger election ticks. For instance, cross // datacenter deployment may require longer election timeout of 10-second. // If true, local node does not need wait up to 10-second. Instead, // forwards its election ticks to 8-second, and have only 2-second left // before leader election. // // Major assumptions are that: // - cluster has no active leader thus advancing ticks enables faster // leader election, or // - cluster already has an established leader, and rejoining follower // is likely to receive heartbeats from the leader after tick advance // and before election timeout. // // However, when network from leader to rejoining follower is congested, // and the follower does not receive leader heartbeat within left election // ticks, disruptive election has to happen thus affecting cluster // availabilities. // // Disabling this would slow down initial bootstrap process for cross // datacenter deployments. Make your own tradeoffs by configuring // --initial-election-tick-advance at the cost of slow initial bootstrap. // // If single-node, it advances ticks regardless. // // See https://github.com/coreos/etcd/issues/9333 for more detail. InitialElectionTickAdvance bool `json:"initial-election-tick-advance"` QuotaBackendBytes int64 `json:"quota-backend-bytes"` MaxRequestBytes uint `json:"max-request-bytes"` // GRPCKeepAliveMinTime is the minimum interval that a client should // wait before pinging server. When client pings "too fast", server // sends goaway and closes the connection (errors: too_many_pings, // http2.ErrCodeEnhanceYourCalm). When too slow, nothing happens. // Server expects client pings only when there is any active streams // (PermitWithoutStream is set false). GRPCKeepAliveMinTime time.Duration `json:"grpc-keepalive-min-time"` // GRPCKeepAliveInterval is the frequency of server-to-client ping // to check if a connection is alive. Close a non-responsive connection // after an additional duration of Timeout. 0 to disable. GRPCKeepAliveInterval time.Duration `json:"grpc-keepalive-interval"` // GRPCKeepAliveTimeout is the additional duration of wait // before closing a non-responsive connection. 0 to disable. GRPCKeepAliveTimeout time.Duration `json:"grpc-keepalive-timeout"` APUrls, ACUrls []url.URL ClusterState string `json:"initial-cluster-state"` DNSCluster string `json:"discovery-srv"` Dproxy string `json:"discovery-proxy"` Durl string `json:"discovery"` InitialCluster string `json:"initial-cluster"` InitialClusterToken string `json:"initial-cluster-token"` StrictReconfigCheck bool `json:"strict-reconfig-check"` EnableV2 bool `json:"enable-v2"` ClientTLSInfo transport.TLSInfo ClientAutoTLS bool PeerTLSInfo transport.TLSInfo PeerAutoTLS bool // CipherSuites is a list of supported TLS cipher suites between // client/server and peers. If empty, Go auto-populates the list. // Note that cipher suites are prioritized in the given order. CipherSuites []string `json:"cipher-suites"` Debug bool `json:"debug"` LogPkgLevels string `json:"log-package-levels"` EnablePprof bool `json:"enable-pprof"` Metrics string `json:"metrics"` // ForceNewCluster starts a new cluster even if previously started; unsafe. ForceNewCluster bool `json:"force-new-cluster"` // UserHandlers is for registering users handlers and only used for // embedding etcd into other applications. // The map key is the route path for the handler, and // you must ensure it can't be conflicted with etcd's. UserHandlers map[string]http.Handler `json:"-"` // ServiceRegister is for registering users' gRPC services. A simple usage example: // cfg := embed.NewConfig() // cfg.ServerRegister = func(s *grpc.Server) { // pb.RegisterFooServer(s, &fooServer{}) // pb.RegisterBarServer(s, &barServer{}) // } // embed.StartEtcd(cfg) ServiceRegister func(*grpc.Server) `json:"-"` AuthToken string `json:"auth-token"` }
Config holds the arguments for configuring an etcd server.
func ConfigFromFile ¶
func NewConfig ¶
func NewConfig() *Config
NewConfig creates a new Config populated with default values.
func (*Config) ClientSelfCert ¶ added in v3.2.22
func (Config) ElectionTicks ¶
func (Config) InitialClusterFromName ¶
func (Config) IsNewCluster ¶
func (*Config) PeerSelfCert ¶ added in v3.2.22
func (*Config) PeerURLsMapAndToken ¶
func (cfg *Config) PeerURLsMapAndToken(which string) (urlsmap types.URLsMap, token string, err error)
PeerURLsMapAndToken sets up an initial peer URLsMap and cluster token for bootstrap or discovery.
func (*Config) UpdateDefaultClusterFromName ¶
UpdateDefaultClusterFromName updates cluster advertise URLs with, if available, default host, if advertise URLs are default values(localhost:2379,2380) AND if listen URL is 0.0.0.0. e.g. advertise peer URL localhost:2380 or listen peer URL 0.0.0.0:2380 then the advertise peer host would be updated with machine's default host, while keeping the listen URL's port. User can work around this by explicitly setting URL with 127.0.0.1. It returns the default hostname, if used, and the error, if any, from getting the machine's default host. TODO: check whether fields are set instead of whether fields have default value
type Etcd ¶
type Etcd struct { Peers []*peerListener Clients []net.Listener Server *etcdserver.EtcdServer // contains filtered or unexported fields }
Etcd contains a running etcd server and its listeners.
func StartEtcd ¶
StartEtcd launches the etcd server and HTTP handlers for client/server communication. The returned Etcd.Server is not guaranteed to have joined the cluster. Wait on the Etcd.Server.ReadyNotify() channel to know when it completes and is ready for use.